Severe hypertriglyceridemia (fasting triglycerides >500 mg/dL) is an uncommon and heterogeneous condition in children. The aim of this work was to assess the etiology of severe hypertriglyceridemia se Show more
Severe hypertriglyceridemia (fasting triglycerides >500 mg/dL) is an uncommon and heterogeneous condition in children. The aim of this work was to assess the etiology of severe hypertriglyceridemia seen in 8 pediatric patients. Eight pediatric cases with severe hypertriglyceridemia underwent clinical, biochemical, and genetic evaluations. The laboratory tests performed included lipoprotein separation by ultracentrifugation and measurement of their lipid content, measurement of apolipoproteins, analyses of post-heparin plasma lipoprotein lipase (LPL) activity and mass, detection of autoantibodies against GPIHBP1, and targeted next-generation sequencing. All children (3-16 years) had recorded fasting serum triglyceride levels >800 mg/dL (9 mmol/L) at least once. Five cases with pathogenic or likely pathogenic biallelic variants in GPIHBP1 (2 cases), APOA5 (1 case), APOC2 (1 case), and LPL (1 case) were diagnosed with familial chylomicronemia syndrome based on their clinical, biochemical, and genetic features. Additionally, 1 child had autoimmune chylomicronemia due to the presence of autoantibodies against GPIHBP1. Finally, 2 patients had severe hypertriglyceridemia due to secondary causes: 1 girl with the onset of type 1 diabetes in the context of diabetic ketoacidosis, and the other patient due to total parenteral nutrition and low-molecular-weight heparin. The etiology of severe hypertriglyceridemia in children is heterogeneous. A multidisciplinary approach helps to reach a definitive diagnosis and, therefore, to recommend specific therapy. Show less
Genetic testing is required to confirm a diagnosis of familial chylomicronemia syndrome (FCS). We assessed the pathogenicity of variants identified in the FCS canonical genes to diagnose FCS cases. 24 Show more
Genetic testing is required to confirm a diagnosis of familial chylomicronemia syndrome (FCS). We assessed the pathogenicity of variants identified in the FCS canonical genes to diagnose FCS cases. 245 patients with severe hypertriglyceridemia underwent next-generation sequencing. Preliminary variant pathogenicity criteria and classification, based on the American College of Medical Genetics and Genomics guidelines, were obtained online and verified. Phenotype evaluation was based on lipoprotein lipase activity deficiency, a clinical score, and/or type I hyperlipoproteinemia determined in 25 patients. Twenty-four biallelic variants were analyzed. Evidence-based criteria allowed the reclassification of 8 likely pathogenic (LP) variants in the LPL, APOA5, and LMF1 genes into pathogenic (P) and the change of 2 variants of uncertain significance (VUS) to LP. Conversely, 2 variations in LMF1 remained as VUS. Additionally, 1 variant in LPL and 2 in GPIHBP1 were likely benign. Twenty FCS cases had biallelic P/LP variants and 1 patient, with an FCS phenotype, harbored biallelic VUS. FCS was excluded from 4 patients with pathogenic/likely benign combinations. The analysis of the clinical and biochemical features of patients with variants in the FCS canonical genes allowed a confident variant classification that helped in the diagnosis of novel FCS cases. Show less
Severe hypertriglyceridaemia due to chylomicronemia may trigger an acute pancreatitis. However, the basic underlying mechanism is usually not well understood. We decided to analyze some proteins invol Show more
Severe hypertriglyceridaemia due to chylomicronemia may trigger an acute pancreatitis. However, the basic underlying mechanism is usually not well understood. We decided to analyze some proteins involved in the catabolism of triglyceride-rich lipoproteins in patients with severe hypertriglyceridaemia. Twenty-four survivors of acute hypertriglyceridaemic pancreatitis (cases) and 31 patients with severe hypertriglyceridaemia (controls) were included. Clinical and anthropometrical data, chylomicronaemia, lipoprotein profile, postheparin lipoprotein lipase mass and activity, hepatic lipase activity, apolipoprotein C II and CIII mass, apo E and A5 polymorphisms were assessed. Only five cases were found to have LPL mass and activity deficiency, all of them thin and having the first episode in childhood. No cases had apolipoprotein CII deficiency. No significant differences were found between the non-deficient LPL cases and the controls in terms of obesity, diabetes, alcohol consumption, drug therapy, gender distribution, evidence of fasting chylomicronaemia, lipid levels, LPL activity and mass, hepatic lipase activity, CII and CIII mass or apo E polymorphisms. However, the SNP S19W of apo A5 tended to be more prevalent in cases than controls (40% vs. 23%, NS). Primary defects in LPL and C-II are rare in survivors of acute hypertriglyceridaemic pancreatitis; lipase activity measurements should be restricted to those having their first episode during childhood. Show less